Dimensional accuracy of 3D-printed surgical cutting guides after hospital sterilization: a comparative evaluation of ten MEX materials.

IF 3.1 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

3D printing in medicine Pub Date : 2025-08-01 DOI:10.1186/s41205-025-00291-w

Diana Popescu, Mariana Cristiana Iacob, Rodica Marinescu

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Abstract

Background: Integrating 3D printing into orthopedic oncology enables the development of patient-specific cutting guides for specific anatomy. To preserve surgical precision, especially in tumor resections where the safety margins must balance minimization of recurrence with avoidance of excessive bone removal, it is critical to maintain the dimensional accuracy of these guides throughout all stages of fabrication, disinfection, cleaning, and sterilization.

Methods: Personalized cutting guides were 3D printed using ten filaments, and 3D scanned before and after sterilization. Two sterilization methods were used: autoclave and vaporized hydrogen peroxide. Dimensional deviations were assessed by comparing the reference STL model with the scanned models using metrics such as root mean square, standard deviation, Gaussian mean, and maximum error. Pearson correlation analysis was conducted to evaluate inter-sample variability and metric interdependence.

Results: PLA and PETG showed the best dimensional accuracy in the as-printed state with RMS values of 0.093 mm and 0.093 mm, respectively, and standard deviations below 0.092 mm. After hydrogen peroxide sterilization, PETG, PC, and PETG-CF kept a high accuracy, while PLA, PLA-HP, PA, and PA6-CF showed significant deformations. Autoclave sterilization determined severe deformation in most materials, with PC showing unexpectedly changes of the geometrical form, increasing in RMS error from 0.127 mm to 3.642 mm. In the as-printed state, maximum error remained below 0.29 mm for all materials, with PLA having the highest localized deviation (0.283 mm). After hydrogen peroxide sterilization, PETG, PC, and ABS maintained maximum error values lower than 0.27 mm, while PLA increased to 0.274 mm and PLA-HP to 0.268 mm. These values, although moderate, showed geometric changes that affect fit in anatomically constrained regions. Pearson correlation analysis showed that hydrogen peroxide sterilization altered the relationship between accuracy metrics of prints after manufacturing, weakening the correlation between RMS and Gaussian mean. This suggested increased unpredictability in deformation direction and highlighted less consistent deformation patterns.

Conclusions: Disinfection and sterilization processes were highly material-dependent, as expected. PETG, PC, and PETG-CF were the most stable materials for the 3D-printed surgical guides when using cold plasma sterilization. Materials like PLA, PLA-HP, and PA require caution due to their instability. Designers should take into account the deformation directionality loss post-sterilization and integrate fit allowances into surgical guide geometry.

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医院消毒后3d打印手术切口导向器的尺寸精度：十种MEX材料的比较评价。

背景：将3D打印集成到骨科肿瘤学中可以开发针对特定解剖结构的患者特异性切割指南。为了保持手术精度，特别是在肿瘤切除中，安全范围必须平衡最小化复发和避免过度骨切除，在制造、消毒、清洁和灭菌的所有阶段保持这些导针的尺寸精度至关重要。方法：采用10根灯丝3D打印个性化切割导轨，并对灭菌前后进行3D扫描。灭菌方法有两种：高压灭菌法和汽化过氧化氢法。通过使用均方根、标准差、高斯均值和最大误差等指标将参考STL模型与扫描模型进行比较，评估尺寸偏差。采用Pearson相关分析来评估样本间变异性和度量相关性。结果：PLA和PETG在打印状态下尺寸精度最高，RMS分别为0.093 mm和0.093 mm，标准差小于0.092 mm。过氧化氢灭菌后，PETG、PC、PETG- cf保持较高的精度，而PLA、PLA- hp、PA、PA6-CF出现明显变形。高压灭菌器灭菌后，大多数材料发生了严重变形，PC的几何形状发生了意想不到的变化，均方根误差从0.127 mm增加到3.642 mm。在打印状态下，所有材料的最大误差保持在0.29 mm以下，PLA具有最高的局部偏差（0.283 mm）。过氧化氢灭菌后，PETG、PC和ABS的最大误差值保持在0.27 mm以下，PLA增加到0.274 mm， PLA- hp增加到0.268 mm。这些数值虽然适中，但显示出几何变化影响了解剖受限区域的契合度。Pearson相关分析表明，过氧化氢灭菌改变了打印后精度指标之间的关系，削弱了RMS与高斯均值之间的相关性。这表明变形方向的不可预测性增加，并突出了不太一致的变形模式。结论：正如预期的那样，消毒和灭菌过程高度依赖于材料。PETG、PC和PETG- cf是冷等离子体灭菌时3d打印手术指南最稳定的材料。PLA、PLA- hp和PA等材料由于不稳定，需要谨慎使用。设计人员应考虑灭菌后的变形方向性损失，并将配合余量整合到手术导管几何中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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3D printing in medicine

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5 weeks